JP2004133817A - Crime prevention monitoring system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a housing crime prevention monitoring system which does not give a suspicious person a chance for intrusion by allowing to be in a securing state except a zone where family members walk through to go out just when a crime prevention securing mode is set. <P>SOLUTION: A common receiver 1 is provided with a means for assigning a particular crime prevention sensor as a final exit/entrance sensor 2 among crime prevention sensors, a going-out crime prevention mode selection switch, and a signal processing part which sets a final exit/entrance particular securing mode when the going-out crime prevention mode is selectively instructed, that is, a securing mode for accepting a detection signal from the sensors other than the final exit/entrance sensor and immediately issuing an alarm and further sets all monitoring sections in a securing mode when later receiving a detection signal from the final exit/entrance sensor 2. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an improvement in a security monitoring system in which detection signals from a plurality of security sensors installed in a monitoring area are received by a common receiver and an alarm is output.
[0002]
[Prior art]
Conventionally, as shown in Patent Document 1 below, a home security monitoring system has been widely used.
[0003]
This is composed of security sensors installed in each monitoring area of the house, such as entrances and entrances, and receivers connected to these security sensors and installed in the house. After being set in the alert mode, each monitored area is set in the alert mode, and an alarm is issued when a detection signal is received from each security sensor.
[0004]
[Patent Document 1]
JP-A-5-298563
[Problems to be solved by the invention]
However, in the above-mentioned conventional system, as shown in FIG. 14, after the alert start delay time of about 30 seconds to 1 minute elapses after the alert mode is set by the receiver, the alert mode is executed. I have.
[0005]
This is a measure to prevent a sensor to be activated and an alarm to be output by opening the entrance or the like after a family member trying to go out sets the mode.
[0006]
With such a configuration, if the housekeeper cannot leave the house within the guard start delay time after setting the mode, it does not make use, and the security alarm mode is not executed until the delay time elapses Even if a family member leaves the house during that time, a suspicious person can enter the house during that time.
[0007]
The present invention is proposed to solve such a problem. As soon as a security operation mode setting operation is performed, an area other than the area where a family member goes out is alerted to intrude into a suspicious person. The purpose is to provide a home security monitoring system that does not leave a gap.
[0008]
[Means for Solving the Problems]
In order to achieve the above object, claim 1 proposes the first present invention, wherein a common receiver is a means for allocating and setting a specific security sensor as a final doorway sensor among security sensors, Outgoing crime prevention mode selection switch, when the outgoing crime prevention mode is instructed to select, the last entrance specific alert mode, that is, for other than the last entrance sensor, set to the alert mode that receives a detection signal and immediately issues an alarm, Further, after that, when a detection signal is received from the final entrance / exit sensor, a signal processing unit that sets all the monitored areas to the alert mode is provided.
[0009]
Claim 2 proposes the second invention, wherein the common receiver is a means for allocating and setting each of two or more specific security sensors among the security sensors as a final entrance / exit sensor, When the mode selection switch and the out-of-home crime prevention mode are instructed to be selected, the second last entrance / exit specific alert mode is set, that is, for other than the last entrance sensor, the alert mode is set to accept a detection signal and immediately issue an alarm. Further, after that, when a detection signal is received from any of the final entrance / exit sensors, a signal processing unit for setting all the monitoring areas to the alert mode is provided.
[0010]
Claim 3 proposes the third invention, wherein the common receiver is a means for assigning and setting a specific security sensor as a final entrance / exit sensor from among the security sensors, an out-going security mode selection switch, When the out-of-office crime prevention mode is instructed, the third final entrance / exit specific warning mode, that is, the standby state is received until a detection signal is received from the final entrance / exit sensor. Is set in the alert mode.
[0011]
Claim 4 proposes the fourth invention, wherein the common receiver is a means for assigning and setting a specific security sensor as an indoor final entrance sensor or an outdoor sensor among security sensors, When the mode selection switch and the out-of-home crime prevention mode are instructed, the fourth final entrance / exit specific warning mode, that is, waits until a detection signal is received from the indoor final entrance / exit sensor, and then receives a detection signal from the indoor final entrance / exit sensor. In this case, a signal processing unit is provided for setting all the monitoring areas indoors to the alert mode, and then, after a predetermined time, setting all the monitoring areas including the outdoor areas to the alert mode.
[0012]
Claim 5 proposes the fifth invention, wherein the common receiver is an outgoing route specifying sensor in which, among the security sensors, a security sensor provided at the entrance of the route when going out corresponds to the outgoing route. Means to set as an outgoing crime prevention mode selection switch, and when the outgoing crime prevention mode is instructed to be selected, the first outing route specific warning mode, that is, the monitoring area under the jurisdiction of the security sensors other than the outgoing route identification sensor, The alert mode is set to immediately output an alarm when a detection signal is received from those security sensors, and thereafter, each time a detection signal is received from each of the outbound route identification sensors, each outbound route identification sensor is in charge. The monitoring area is sequentially set to the alert mode, thereby providing a signal processing unit for setting all the monitoring areas to the alert mode.
[0013]
Claim 6 proposes the sixth invention, wherein the common receiver is an outgoing route specifying sensor in which, among the security sensors, the security sensor provided at the entrance of the route when going out corresponds to the outgoing route. Means to be set as an outgoing crime prevention mode selection switch, and when the outgoing crime prevention mode is instructed to be selected, the second outing route specific warning mode, that is, the monitoring area under the jurisdiction of the security sensors other than the outgoing route identification sensor, Set the alert mode to immediately output an alarm if a detection signal is received from those security sensors, and thereafter, when a detection signal is received from the outbound route sensor installed at the outermost of the outbound route identification sensors And a signal processing unit for setting all the monitoring areas including the monitoring area under the jurisdiction of the outgoing route specifying sensor to the alert mode.
[0014]
Claim 7 proposes a seventh invention, wherein the common receiver is an outgoing route specifying sensor in which, among the security sensors, the security sensor provided at the entrance of the route when going out corresponds to the outgoing route. An outgoing route specific alert that selects one of the first outgoing route alert mode described in claim 5 and the second outgoing route alert mode described in claim 6 for the outgoing crime prevention mode. A mode selection switch, and a signal processing unit that discriminates the selection setting operation of the outside route alert mode selection switch and selectively executes the first and second outside route alert identification modes.
[0015]
Claims 8 and 9 propose the configurations of the final entrance / exit sensor and receiver applied in the first to fourth aspects of the present invention.
[0016]
That is, in claim 8, the final entrance / exit sensor includes a wireless transmission unit, and the common receiver includes a wireless reception processing unit, and a radio signal is transmitted / received between the final entrance / exit sensor and the common receiver. Then the necessary security surveillance is being performed.
[0017]
In the ninth aspect, the final entrance / exit sensor is wired-connected to a dedicated connection terminal provided in advance on the common receiver side.
[0018]
Claims 10 and 11 propose the configurations of the outgoing route specifying sensor and the receiver applied to the fifth to seventh aspects of the present invention.
[0019]
That is, in claim 10, the out-of-home route specifying sensor includes a wireless transmitting unit, and the common receiver includes a wireless reception processing unit. The radio signal is transmitted between the out-of-home route specifying sensor and the common receiver. The necessary security surveillance has been carried out.
[0020]
In the eleventh aspect, the out-of-home route specifying sensor is connected to a dedicated connection terminal provided in advance on the common receiver side by wire.
[0021]
Claims 12 and 13 propose specific examples of the last entrance / exit sensor applied in the first to fourth inventions.
[0022]
In the twelfth aspect, the final entrance / exit sensor is constituted by a human body detection sensor that detects the movement of the human body in a certain direction. According to a thirteenth aspect, the final entrance / exit sensor is a window opening operation detection sensor that detects an operation of opening a window.
[0023]
Claims 14 and 15 propose specific examples of the outgoing route specifying sensor applied in the fifth to seventh aspects of the present invention.
[0024]
That is, in claim 14, the outgoing route specifying sensor is configured by a human body detection sensor that detects the movement of the human body in a certain direction. Further, in claim 15, the out-of-home route specifying sensor is constituted by a window opening operation detecting sensor for detecting an opening operation of the window.
[0025]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a diagram showing an example of a system configuration according to the first to fourth embodiments of the present invention. The “detection signal” used in the present embodiment means a pulse signal, which is a signal that reaches another level from a certain level and returns to the original certain level.
[0026]
This is configured by combining a receiver 1 and security sensors 2 and 3. The security sensors 2 and 3 are configured by wireless security sensors, and identification information (for example, an ID code) of the security sensors 2 and 3 is registered in the receiver 1. The security sensor 2 will be described later. By operating the entrance / exit sensor setting means 15B, information indicating the final entrance / exit sensor is registered together with the identification information, so that it is assigned and set as the final entrance / exit sensor.
[0027]
The receiver 1 has a configuration shown in FIG. That is, a signal processing unit 10 for controlling the receiver 1, a wireless receiving circuit 11, a display unit 12, a notifying unit 13, a storage unit 14 for registering identification information of the security sensors 2 and 3, an out-of-home security mode The operation unit 15 includes a selection switch 15A and a final entrance / exit sensor setting unit 15B.
[0028]
The receiver 1 waits for a detection signal input from the security sensors 2 and 3 when executing a security mode described later, and when input, recognizes identification information transmitted together with the signal. It is determined whether or not the information described later is registered together with the identification information.
[0029]
The function of the out-of-home crime prevention mode selection switch 15A will be described later.
[0030]
The security sensors 2 and 3 have the configuration shown in FIG. That is, a signal processing unit 20 for controlling the security sensors 2 and 3, an antenna unit 21, a wireless transmission unit 22, and a PLL control unit 23, and a wireless transmission unit for transmitting a detection signal together with identification information; A storage unit 24 storing information, an operation unit 25, a display unit 26, and a detection unit 27 are provided.
[0031]
Such a security sensor, in particular, a final entrance / exit sensor or an outgoing route identification sensor described later is constituted by a human body detection sensor that detects movement of a human body in a certain direction and a window opening operation detection sensor that detects a window opening operation. This would be beneficial in the following respects.
[0032]
In other words, if a human body detection sensor having such a configuration is used, it is necessary to detect the movement of the human body in a certain direction. When returning to picking up, no detection signal is output even if the light passes in the opposite direction to the detection direction, and no alarm is output.
[0033]
When such a human body detection sensor is used, a predetermined time (from the selection of the outside mode to the time when the area becomes the alert mode) after the selection of the outside mode is detected in the direction in which the family member goes outside. After a lapse of a predetermined time, that is, after the area is in the alert mode, if it is detected in the direction opposite to the direction of going out (the direction of entering the house), the area can be detected. Can be detected in both directions after being alerted, so that there is no gap for intrusion through the area.
[0034]
On the other hand, if a window opening operation detection sensor is used, the detection signal will not recover unless the window is opened and then closed, so that the area is not set to the alert mode and the window is opened as will be understood from the following description. When a family member who tries to go out notices a lost item and returns to the house, no alarm is output even when returning to the house.
[0035]
According to such a configuration, the following processing can be performed. First, the first present invention (first final entrance / exit specific warning mode) will be described with reference to the time chart of FIG. That is, when the outside crime prevention mode selection switch 15A is operated in the receiver 1, the signal processing unit 10 immediately sets the sensors other than the last entrance, that is, the monitoring area of the crime prevention sensor 3 to the alert mode (partial). Vigilance), when a detection signal is received from the last doorway sensor, that is, the security sensor 2, since the information of the last doorway sensor is registered together with the identification information recognized together with this signal, the vigilance area is also set to the vigilance mode. . That is, all the guard areas are in the guard mode (all guards).
[0036]
Next, the second present invention (second final entrance specific warning mode) will be described with reference to the time chart of FIG. Here, two or more security sensors 2 are registered in the receiver 1 as final entrance sensors, and the signal processing unit 10 detects sensors other than the final entrance when the exterior security mode selection switch 15A is operated, that is, Then, the monitoring area of the security sensor 3 is immediately set to the alert mode (partial alert), and when a detection signal is received from any of the final entrance / exit sensors, that is, any of the security sensors 2, the identification is recognized together with this signal. Since the information of the last entrance sensor is registered together with the information, the security mode is set for all security areas (full security).
[0037]
Further, in the third present invention (third final entrance / exit specific warning mode), as shown in the time chart of FIG. 6, the signal processing unit 10 operates the final entrance / exit sensor when the outside crime prevention mode selection switch 15A is operated. In other words, the system waits until a detection signal is received from the security sensor 2, and when a detection signal is received from the security sensor 2, all monitoring areas are set to the alert mode (full alert).
[0038]
Further, in the fourth present invention (fourth final doorway specific alert mode), as shown in the time chart of FIG. 7, the security sensor 2 is registered in the receiver 1 as the last doorway sensor or outdoor sensor. When the outside security mode selection switch 15A is operated, the signal processing unit 10 waits until a detection signal is received from the security sensor 2 serving as an indoor last doorway sensor, and when the detection signal is received from the indoor last doorway sensor. Then, all indoor monitoring areas are set to the alert mode (indoor alarm), and after a predetermined time, all monitoring areas including the outdoor area are set to the alert mode (all alerts). The predetermined time is set and registered in the signal processing unit 10 and the storage unit 14 in advance.
[0039]
Here, in the above-described example, the receiver 1 employs a device incorporating a wireless reception circuit, but may be configured with a wire connection terminal for a security sensor as shown in FIG.
[0040]
That is, the receiver 1A includes an interface 16 having security sensor wired connection terminals 16A to 16C, and each of the security sensor wired connection terminals 16A to 16C is connected to a security sensor by wire for each monitoring area. are doing.
[0041]
By operating the final entrance / exit sensor setting means 15B, the information of the final entrance / exit sensor is registered in any one of the security sensor wired connection terminals 16A to 16C to which the security sensor 2 is connected. , Is assigned and set as the last entrance / exit sensor.
[0042]
When the out-of-office crime prevention mode selection switch 15A is operated, sensors other than the last entrance and exit, that is, the monitoring area of the crime prevention sensor 3 are immediately set to the alert mode (partial alert), and the last entrance and exit sensor, that is, the security sensor 2 is turned on. When the detection signals are received from the connected terminals 16A to 16C, the terminals 16A to 16C are set as the final entrance / exit sensors, so that the alert area is also set to the alert mode. That is, all the guard areas are in the guard mode (all guards).
[0043]
The security sensor connected to the wired connection terminals 16A to 16C can be configured as a wireless security sensor 4 by incorporating a wireless signal processing unit as shown in FIG. This includes a wireless signal processing unit 40, an antenna unit 41, a wireless transmission unit 42, a PLL control unit 43, a storage unit 44 for storing identification information unique to the security sensor 4, an operation unit 45, and a display unit. A data conversion unit 47 for converting a detection signal from the wired security sensor into a radio signal; and a data input unit 48 for connecting the wired security sensor and receiving the detection signal from the wired security sensor.
[0044]
FIG. 10 is a diagram showing an example of a system configuration according to the fifth and sixth aspects of the present invention. In this case, the receiver 1A includes an out-of-home route sensor setting means 15C. Other configurations of the receiver 1A are the same as those of the receiver 1 of FIG.
[0045]
By the operation, the outbound route sensor setting means 15C associates a specific sensor at the entrance of the route at the time of going out with the outbound route, the sensor of the outbound route 1, the sensor of the outbound route 2, the sensor of the outbound route 3.・ It can be set.
[0046]
In the receiver 1A, the security sensor 2 (# 1) is used as an entrance sensor, the security sensor 2 (# 2) is used as a gate sensor, and the security sensors 2 (# 2) are used as sensors for the outgoing routes 1 and 2 by operating the outside route sensor setting means 15C. Assignment settings have been made. This setting is performed by registering the identification information of the security sensor 2 (# 1) together with the information of the entrance, and registering the identification information of the security sensor (# 2) as information of the gate.
[0047]
According to such a configuration, the signal processing unit 10 of the receiver 1A can perform the following processing. That is, in the fifth present invention (first out-of-home route identification alert mode), as shown in the time chart of FIG. 11, when the out-of-home security mode selection switch 15A is operated, the security sensors other than the out-of-home route identification sensor, That is, the monitoring area under the jurisdiction of the security sensor 3 is immediately set to the alert mode (partial alert).
Thereafter, when a detection signal is received from the sensor of the outbound route 1, that is, the sensor 2 (# 1) at the entrance, the information of the entrance is registered together with the identification information recognized together with this signal, so that the sensor (# 1) Set the jurisdiction and the entrance to the alert mode.
[0048]
When a detection signal is received from the sensor of the outbound route 2, that is, the gate sensor 2 (# 2), the gate information is registered together with the identification information recognized together with this signal. ) Set the jurisdiction and gates to the alert mode, and set all alert areas to the alert mode (all alerts).
In the sixth aspect of the present invention (second outgoing route identification warning mode), when the outgoing crime prevention mode selection switch 15A is operated, as shown in the time chart of FIG. That is, the monitoring area under the jurisdiction of the security sensor 3 is immediately set to the alert mode (partial alert).
[0049]
Thereafter, when the signal processing unit 10 receives a detection signal from the sensor located at the outermost position among the outgoing route specifying sensors, that is, the sensor 2 (# 2) at the gate, the signal processing unit 10 is in a guard area controlled by the outgoing route specifying sensor. Is the alert mode.
[0050]
That is, when a detection signal is received from the sensor of the outbound route 1, that is, the sensor 2 (# 1) at the entrance, the information of the entrance is registered together with the identification information recognized together with this signal. When the guard area under jurisdiction is not set to the guard mode, when a detection signal is received from the sensor of the outgoing route 2, that is, the sensor 2 (# 2) of the gate, the information of the gate is registered together with the identification information recognized together with this signal. Therefore, it is determined from the information of the gate that it is the outermost, and the guard area controlled by the outgoing route specifying sensor is set to the guard mode, and all the guard areas are set to the guard mode (all guards).
[0051]
Here, in the fifth and sixth aspects of the present invention as well, the receiver 1A includes a wire connection terminal for a security sensor, similarly to the first to fourth aspects of the present invention. By operating the route sensor setting means 15C, the information of the entrance is registered as the first outgoing route for the terminal 16A to which the security sensor 2 (# 1) is connected, and the terminal 16B to which the security sensor 2 (# 2) is connected. Can be realized by registering the gate information as the second outing route.
[0052]
FIG. 13 is a diagram showing an example of the system configuration of the seventh invention. In this case, the receiver 1B is provided with an out-of-home route specific warning mode selection switch 15D. Other configurations are the same as those of the receiver 1A shown in FIG.
[0053]
By operating the outgoing route specific alert mode selection switch 15D, the receiver 1B executes the first outgoing route alert mode of the fifth present invention or sets the second outgoing route alert mode of the sixth present invention. The signal processing unit 10 executes either the first or second outgoing route alert mode by determining whether to execute the mode.
[0054]
It should be noted that the receivers 1 to 1B are registered with the identification information of the security sensor 2 and the information on the last entrance / exit route, but these information are also stored in the security sensor 2 and output when the detection signal is output. If these are also included, the receivers 1 to 1B do not need to register these information, and if these information are received in the program, the last entrance or the outgoing route is set to the alert mode. The above processing can be performed only by setting.
[0055]
【The invention's effect】
As can be understood from the above description, according to the first aspect of the present invention, even if the user is alertly set when going out, he / she can go out unless a detection signal is received from the final entrance / exit sensor. Therefore, even if the user takes time to go out after setting the alert mode, there is no need to return to the installation location of the receiver and cancel the alert set, unlike a conventional system having a delay time.
[0056]
Also, if you go out after passing through the monitoring area of the final entrance sensor after setting the security when you go out, the security mode of all the security areas will be set at that time, as in the conventional system with a delay time, There is no chance for a suspicious person to enter in time.
[0057]
According to the second aspect, when there are two or more final entrances, the entire area is set in the alert mode regardless of the exit from any of the entrances, which can be useful in a residence or the like having a plurality of final entrances.
[0058]
According to the third aspect, the house does not enter the security mode at all even if the security setting is performed when going out, unless the final entrance is reached. Therefore, if a sensor that detects the movement of the human body, such as a hot-wire sensor, is used in a place other than the final entrance such as an indoor room, no alarm is output even if the user passes through the place before exiting the final entrance, which is convenient. When the user goes out through the entrance / exit, all the guard areas are in the alert mode, which can be beneficial for security.
[0059]
According to the fourth aspect, when the vehicle passes through the final entrance, all the indoor areas are in the alert mode, and after a certain period of time, all the areas including the outdoor are in the alert mode. Therefore, indoor security can be ensured after the house leaves the building.
Then, for a certain period of time, you can get into a car or travel to a distant gate because there is no security outside, and after a certain period of time, you can secure the entire area.
[0060]
According to the fifth aspect, the monitoring area can be sequentially expanded from the inside to the outside according to the movement of the family member when going out, so that when it is time-consuming to go out as in the past, it is necessary to return to the place where the receiver is installed. There is no hassle of having to lift vigilance.
Further, since the monitoring area can be sequentially expanded from the inside to the outside, no careless state is not inadvertently generated.
[0061]
Further, after the security setting when going out, the jurisdiction of the sensors other than the outgoing route is set to the alert mode, and then, with the passage of the family members out of the route, the jurisdiction of the sensor in the middle of the passing is set to the alert mode. In a place where the sight of a family member is out of sight, the alert mode can always be set, so that there is no chance for a suspicious person to enter during that time unlike the conventional system having a delay time.
[0062]
According to the sixth aspect, the monitoring area can be sequentially expanded from the inside to the outside in accordance with the operation of the family when going out, so that if the user takes time to go out as in the related art, the monitoring area returns to the place where the receiver is installed. There is no hassle of having to lift vigilance.
Further, since the monitoring area can be sequentially expanded from the inside to the outside, no careless state is not inadvertently generated.
[0063]
Furthermore, after the security setting when going out, the jurisdiction of the sensors other than the outgoing route is set to the alert mode, and then, when a family member passes the outermost sensor in the outgoing route, the jurisdiction of the outgoing route is set in the alert mode. Therefore, if a family member returns to retrieve a lost item in the middle of an outing route, the outing route is not yet in the alert mode, and no alarm is output, which is convenient. Further, unlike the conventional system having a delay time, there is no possibility that a suspicious person can enter during that time.
[0064]
According to the seventh aspect, as the out-of-office alert mode, the first and second out-of-home route specific alert modes described in the fifth and sixth aspects can be arbitrarily selected on the user side according to the purpose of use.
[0065]
According to claims 8 and 10, the final entrance / exit sensor or the outgoing route identification sensor includes a wireless transmitting unit, and the common receiver includes a wireless reception processing unit. Since the radio signal is transmitted and received and necessary security monitoring is performed, no wiring is required and the construction can be facilitated.
[0066]
According to the ninth and eleventh aspects, the final entrance / exit sensor or the outgoing route identification sensor is wired to a dedicated connection terminal provided in advance on the common receiver side. The present invention can be configured using a receiver of a type that is connected to a terminal by wire. Therefore, it is easy to shift from the conventional system, and the cost is reduced.
[0067]
In Claims 12 and 14, since the final entrance / exit sensor or outgoing route specifying sensor is constituted by a human body detection sensor that detects movement of a human body in a certain direction, if it is installed so as to detect the outgoing direction, When a household member who has once passed the sensor notices a forgotten thing and returns to pick up, no detection signal is output even if the detection object is passed in the opposite direction, and no alarm is output.
[0068]
In Claims 13 and 15, the last entrance / exit sensor or the outgoing route specifying sensor is constituted by a window opening operation detection sensor for detecting an opening operation of the window. Therefore, the detection signal will not be restored unless the window is opened and then closed, so the area will not be set in the alert mode, and if the housekeeper who opens the window and goes out notices the lost item and returns to the house, No alarm will be output even if you return inside.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating an example of a system configuration according to first to fourth embodiments of the present invention.
FIG. 2 is a diagram illustrating an example of a main configuration of a receiver (showing an example in which a wireless receiving circuit is incorporated).
FIG. 3 is a block diagram illustrating an example in which a final entrance / exit sensor is configured as a wireless security sensor.
FIG. 4 is a time chart showing a basic operation of the first present invention (first final entrance specific alert mode).
FIG. 5 is a time chart showing a basic operation of the second present invention (second final entrance specific alert mode).
FIG. 6 is a time chart showing a basic operation of the third present invention (third final entrance specific alert mode).
FIG. 7 is a time chart showing a basic operation of a fourth present invention (fourth final entrance specific alert mode).
FIG. 8 is a diagram showing another example of the main configuration of the receiver (showing an example having a wire connection terminal for a security sensor).
FIG. 9 is a block diagram showing a basic configuration when a wireless security sensor is configured by incorporating a wireless signal processing unit into the wired security sensor.
FIG. 10 is a diagram illustrating an example of a system configuration according to fifth and sixth aspects of the present invention.
FIG. 11 is a time chart showing the operation of the fifth present invention (first outbound route specific warning mode).
FIG. 12 is a time chart showing the operation of the sixth present invention (second outbound route specific warning mode).
FIG. 13 is a diagram showing an example of a system configuration of the seventh invention.
FIG. 14 is a time chart showing the operation of the conventional security monitoring system (warning delay mode).
[Explanation of symbols]
1, 1A, 1B ... receiver
2 ・ ・ ・ Last entry / exit sensor, outgoing route identification sensor
3. Other security sensors
10 Signal processing unit (receiver side)
11 Wireless receiver circuit (receiver side)
15A ・ ・ ・ Outgoing crime prevention mode selection switch (receiver side)
15B: Final entrance / exit sensor setting means (receiver side)
15C ・ ・ ・ Outgoing route sensor setting means (receiver side)
15D ・ ・ ・ Outgoing route specific warning mode selection switch (receiver side)
16A-16C: Wired connection terminal for security sensor (receiver side)
20 ... Signal processing unit (sensor side)
21 ... antenna part (sensor side)
22 ... Wireless transmitter (sensor side)
23 ... PLL control unit (sensor side)

Claims (15)

In a security monitoring system that receives detection signals from a plurality of security sensors installed in a monitoring area with a common receiver and outputs an alarm,
The common receiver is
Means for assigning and setting a specific security sensor as a final entrance / exit sensor from among the security sensors,
Out-of-home crime prevention mode selection switch,
When the out-of-office crime prevention mode is instructed to be selected, the first final entrance / exit specific warning mode is set, that is, for other than the final entrance / exit sensor, a warning mode in which a detection signal is received and an alarm is immediately issued is set. And a signal processing unit for setting all monitoring areas to the alert mode when a detection signal is received from the final entrance / exit sensor. In a security monitoring system that receives detection signals from a plurality of security sensors installed in a monitoring area with a common receiver and outputs an alarm,
The common receiver is
Means for assigning and setting each of the two or more specific security sensors from the security sensors as a final entrance / exit sensor;
Out-of-home crime prevention mode selection switch,
When the outgoing crime prevention mode is instructed to be selected, the second final entrance / exit specific warning mode is set, that is, for other than the final entrance / exit sensor, a warning mode is set to receive a detection signal and immediately issue an alarm, and further thereafter And a signal processing unit for setting all monitoring areas to the alert mode when a detection signal is received from any of the final entrance sensors. In a security monitoring system that receives detection signals from a plurality of security sensors installed in a monitoring area with a common receiver and outputs an alarm,
The common receiver is
Means for assigning and setting a specific security sensor as a final entrance / exit sensor from among the security sensors,
Out-of-home crime prevention mode selection switch,
When the out-of-office crime prevention mode is instructed, the third final entrance / exit specific warning mode, that is, the standby state is received until a detection signal is received from the final entrance / exit sensor. A security monitoring system comprising a signal processing unit for setting a security mode. In a security monitoring system that receives detection signals from a plurality of security sensors installed in a monitoring area with a common receiver and outputs an alarm,
The common receiver is
Means for assigning and setting a specific security sensor from among the security sensors as an indoor final entrance / exit sensor or an outdoor sensor;
Out-of-home crime prevention mode selection switch,
When the outgoing crime prevention mode is instructed to be selected, the fourth final entrance / exit specific warning mode, that is, waits until a detection signal is received from the indoor final entrance / exit sensor. Set all monitored areas to alert mode,
Then, after a predetermined time has elapsed, a security processing system comprising a signal processing unit for setting all the monitoring areas including the outdoors to the alert mode. In a security monitoring system that receives detection signals from a plurality of security sensors installed in a monitoring area with a common receiver and outputs an alarm,
The common receiver is
Means for assigning and setting a security sensor provided at the entrance of the route when going out of the security sensors as an outgoing route specifying sensor corresponding to the outgoing route;
Out-of-home crime prevention mode selection switch,
When the out-of-home crime prevention mode is instructed to be selected, the first out-of-home route identification warning mode, that is, the monitoring area under the jurisdiction of the security sensors other than the above-mentioned out-of-home route identification sensor, immediately issues an alarm upon receiving a detection signal from those security sensors. Set to the alert mode to be output, and thereafter, every time a detection signal is received from each of the outgoing route specifying sensors, the monitoring area controlled by each outgoing route specifying sensor is sequentially set in the alert mode, whereby And a signal processing unit for setting all monitored areas in the alert mode. In a security monitoring system that receives detection signals from a plurality of security sensors installed in a monitoring area with a common receiver and outputs an alarm,
The common receiver is
Means for assigning and setting a security sensor provided at the entrance of the route when going out of the security sensors as an outgoing route specifying sensor corresponding to the outgoing route;
Out-of-home crime prevention mode selection switch,
When the out-of-home crime prevention mode is instructed to be selected, the second out-of-home route identification warning mode, that is, the monitoring area under the jurisdiction of the security sensors other than the above-mentioned out-of-home route identification sensor, issues an alarm immediately upon receiving a detection signal from those security sensors. Set to the alert mode to be output, and further thereafter, when a detection signal is received from the outgoing route sensor installed most outside of the outgoing route specifying sensor, includes a monitoring area under the jurisdiction of the outgoing route specifying sensor. A security monitoring system comprising a signal processing unit for setting all monitoring areas to a warning mode. In a security monitoring system that receives detection signals from a plurality of security sensors installed in a monitoring area with a common receiver and outputs an alarm,
The common receiver is
Means for assigning and setting a security sensor provided at the entrance of the route when going out of the security sensors as an outgoing route specifying sensor corresponding to the outgoing route;
A first out-of-home route warning mode according to claim 5 with respect to the out-of-home crime prevention mode;
An outgoing route specific alert mode selection switch for selecting the second outgoing route alert mode according to claim 6,
A security monitoring system comprising: a signal processing unit that discriminates the selection setting operation of the out-of-home-path-alarm mode selection switch and selectively executes the first and second out-of-home-path-alert mode. In claims 1 to 4,
The final entrance / exit sensor includes a wireless transmission unit,
And the common receiver includes a wireless reception processing unit,
A security monitoring system in which a radio signal is transmitted and received between the final entrance sensor and the common receiver to perform necessary security monitoring. In claims 1 to 4,
The security monitoring system, wherein the final entrance / exit sensor is wired to a dedicated connection terminal provided in advance on the common receiver. In any one of claims 5 to 7,
The out-of-home route identification sensor includes a wireless transmission unit,
And the common receiver includes a wireless reception processing unit,
A security monitoring system in which a radio signal is transmitted and received between the outbound route specifying sensor and the common receiver to perform necessary security monitoring. In any one of claims 5 to 7,
The security monitoring system, wherein the out-of-home route specifying sensor is wired to a dedicated connection terminal provided in advance on the common receiver. In claim 8 or 9,
A security monitoring system in which the final entrance sensor is a human body detection sensor that detects movement of a human body in a certain direction. In claim 8 or 9,
A security monitoring system in which the final entrance sensor is a window opening operation detection sensor that detects a window opening operation. In claim 10 or 11,
The security monitoring system according to claim 1, wherein the outgoing route identification sensor includes a human body detection sensor that detects a movement of a human body in a certain direction. In claim 10 or 11,
A security monitoring system in which the outside route identification sensor is a window opening operation detection sensor that detects a window opening operation.

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